KR100434737B1 - Apparatus for anti vaper of coal moisture control process - Google Patents

Abstract

The present invention relates to an apparatus for preventing steam generation of a coal dryer, and in particular, to generate steam during coal moisture drying in a coal dryer (CMCP) facility that reduces moisture of coal for coke production. It relates to a prevention device.

The present invention is installed in the lower portion of the drying dryer dryer unit for cooling the high temperature of the dry granite dried in the drying dryer to room temperature; Dryer driving means for rotating the shaft of the dryer unit; And a cooling tank for sending the high-temperature condensate generated by the drying dryer to the cooling dryer for the dryer unit.

Description

Apparatus for anti vaper of coal moisture control process

The present invention relates to an apparatus for preventing steam generation of a coal dryer, and in particular, to generate steam during coal moisture drying in a coal dryer (CMCP) facility that reduces moisture of coal for coke production. It relates to a prevention device.

In general, Coal Moisture Control Process (CMCP) is a facility that dries the moisture contained in coal to a certain level while drying the blended coal for coke manufacturing. It also improves coke strength and reduces moisture by reducing the amount of coke produced.

As shown in FIGS. 1 and 2, coal 30 is transported by belt conveyor 20 to be granulated into drying dryer 10 through feed screw 12. 297 heating tubes 14 are installed in the drying dryer 10, and steam is introduced into the heating tube through the steam inlet 13.

The pressure of steam is determined by the amount of coal 30 introduced and the amount of water contained in the coal, which is automatically determined by computer data. Therefore, the temperature of the drying dryer 10 is maintained at 60 to 90 ° C. at all times by steam, thereby drying the coal 30 therein.

After the coal 30 is granulated through the feed screw 12 and discharged to the coal discharge unit 16, the drying dryer 10 is not only installed at an angle of about 5.3 ° as shown in FIG. 1, but also 4.3 RPM (Revolutions). Since the rotation is performed at a rate of Per Minute, the coal 30 is discharged.

In addition, the condensate generated after the steam is introduced is treated through the condensate outlet 15 and used for other purposes. When the coal 30 is constantly dried in the drying dryer 10, the coal 30 is transported using the belt conveyor 20, which is stored in a coal storage tank (not shown) to manufacture coke.

At this time, since the temperature of the coal is maintained at about 60 ~ 90 ℃ in the process of drying and transporting the coal (30) as described above, the steam (50) must be emitted to the outside during transportation, which is scattered to the air level (level ) It causes malfunction of various switches such as switches and chute detection switches, accelerates corrosion of related equipment such as belt conveyor covers, and causes safety accidents by obstructing the vision of equipment inspectors.

The present invention has been made in order to solve the above problems of the prior art, by drying the coal once in the process of drying the water of water and recovering it to room temperature, it is possible to solve the problems caused by the generation of steam during coal transportation It is an object of the present invention to provide a steam generation prevention device of a coal dryer.

1 is a flow chart of the entire drying of coal through a conventional coal dryer.

Figure 2 is a flow chart of drying coal through a dryer for drying a conventional coal dryer.

Figure 3 is an overall configuration of the steam generating prevention device of the coal dryer according to the invention.

FIG. 4 is an internal perspective view of the dryer for cooling in the steam generating prevention device of the coal dryer shown in FIG.

5A is a cross-sectional view taken along the line A-A of FIG.

5B is a detailed view of the 'B' portion of FIG. 4.

Figure 5c is a detailed view of the 'C' portion of FIG.

5D is a detailed view of the 'D' portion of FIG. 4.

Figure 6 is a flow diagram of coal according to the steam generation prevention device of the coal dryer of the present invention.

7 is a flow chart of the condensate according to the steam generation prevention device of the coal dryer of the present invention.

<Explanation of symbols for main parts of drawing>

10: drying dryer 20: belt conveyor

30: coal 40: chute

50: steam 80: cooling dryer

81: cooling tube 82: blade

83 shaft 90 cooling condensate pipe

100: control valve 110: cooling tank

120: condensate treatment tank

According to the present invention for achieving the above object is the coal transported through the belt conveyor is dried into the drying dryer of the coal dryer, and after drying the coal through steam introduced into the heating tube installed inside the drying dryer An apparatus for preventing steam generated in a transport process, the apparatus comprising: a dryer unit installed at a lower portion of the drying dryer to cool high temperature granite dried at a drying dryer to room temperature; Dryer driving means for rotating the shaft of the dryer unit; And a cooling tank for sending the high-temperature condensate generated by the drying dryer to the cooling dryer for the dryer unit.

In the present invention, the dryer unit is a cooling dryer equipped with a coal inlet on one side of the outside is surrounded by a drum case, a shaft passing through the interior of the cooling dryer, a plurality of cooling tubes installed around the shaft, It characterized in that it comprises a screw-shaped blade through which the cooling tube passes.

In addition, in the present invention, the upper and both sides of the cooling tank is provided with a high-temperature condensate pipe connected to the drying dryer, one side of the high-temperature condensate pipe is connected to the control valve and the condensed water obtained by the cooling fan is installed on the top of the cooling tank After cooling by, it is introduced into the shaft and the cooling tube through the cooling condensate pipe installed in the cooling tank lower.

In addition, in the present invention, the cooling tank is installed with a level gauge, characterized in that the control valve is closed in accordance with the detection of the high level is characterized in that the condensate is sent to the treatment tank.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 to 6 shows an embodiment of the steam generation prevention device of the coal dryer of the present invention, the steam generation prevention device according to this is a dryer unit for cooling the high-temperature succinite dried in a drying dryer to room temperature; Dryer driving means for rotating the shaft of the dryer unit, and a cooling tank for sending the high-temperature condensate generated in the drying dryer to the cooling dryer for the dryer unit.

3 and 4, the cooling dryer 80 is fixed to the lower portion of the above-described drying dryer 10, and the cooling dryer 80 has a cylindrical shape. The high-temperature coal dried in the drying dryer 10 is cooled to room temperature, and the outside is surrounded by a drum case 85 and 112 centered on a shaft 83 penetrating the inside in a longitudinal direction. The cooling tube 81 is provided in a circular shape.

Since the condensed water cooled through the inside of the cooling tube 81 is circulated, and the cooling tube 81 is installed through a blade 82 having a screw shape, the blade always rotates when rotating. Rotation is made with 82, and blade 82 is able to push coal 30 out while rotating.

Both ends of the shaft 83 are connected to each other by driving means, that is, the driving motor 84 and a pair of rotary joints 87 and 87-1, so that the shaft 83 is operated according to the operation of the driving motor 84. And the cooling tube 81 and the blade 82 rotate together.

The cooling tank 110 cools the high-temperature condensate generated in the drying dryer 10 and sends it to the cooling dryer 80, and the upper and both sides of the cooling tank 110 are The high temperature condensate tube 70 is connected to the drying dryer 10, and the control valve 100 is connected to one side of the high temperature condensate tube 70, so that the high temperature condensate is controlled through the high temperature condensate tube 70. After passing through the valve 100, it is obtained in the cooling tank 110.

After the obtained condensate is cooled to room temperature by a cooling fan 111 installed above the cooling tank 110, the shaft 83 and the cooling tube through the cooling condensate tube 90 installed below the cooling tank 110. And a recirculation cycle, which is brought back into the cooling tank 110, and the cooling condensate pipe 90 is related to the rotation of the shaft 83 by the rotary joints 87 and 87-1. Condensate is supplied to the shaft without

In addition, the cooling tank 110 is provided with level gauges 112 and 114, when the high level 114 is detected, the control valve 100 is closed so that the condensate is treated as a separate treatment tank 120, FIG. 4. Reference numeral 86 is a coal inlet, 88 is a thermometer.

Hereinafter will be described the operation of the steam generating prevention device of the coal dryer according to the present embodiment configured as described above.

As shown in Figure 5, the flow of coal according to the present invention is introduced into the drying dryer 10 is rotating at 4.3 RPM through the coal 30, the chute 40 while drying of moisture is made from this time It will be pushed to the exit side. The drying is performed because steam is introduced from the steam inlet 13 to heat the heating tube 14 inside the drying drier 10.

Coal 30 is rotated together with the drying dryer 10, exits between the heating tube 14 and introduced into the cooling dryer 80 through the coal inlet 86, the cooling dryer is the drum case ( In 85, the blade 82 and 112 cooling tubes 81 are in rotational motion by the rotation of the shaft 83 through the dryer driving means.

Accordingly, the coal 30 introduced into the cooling dryer 80 is pushed toward the coal discharge part 16 by the rotational movement of the screw-type blade 82 and the high temperature coal 30 having a temperature of 50 to 100 ° C. While passing through the cooling dryer 80 is changed to room temperature.

Meanwhile, as shown in FIG. 6, the flow of condensate according to the present invention is generated by the high temperature condensate in the drying dryer 10, and is supplied to the cooling tank 110 through the high temperature condensate tube 70. At this time, if the water level of the cooling tank 110 is a high level 114, the control valve 100 is closed so that the high temperature condensate enters the treatment tank 120 and the water level of the cooling tank 110 is at a low level. If the reference numeral 112 is set, the control valve 100 is opened, and the hot condensate is supplied to the cooling tank 110.

At this time, the cooling tank 110 operates the cooling fan 111 to cool the condensed water to a selected temperature, and the cold condensed water is cooled through the cooling condensate tube 90 through the cooling shaft 80 inside the shaft 83, Injected into the tube 81 to cool the coal 30 is recycled to the drying dryer (10).

Thereafter, the coal 30 cooled to room temperature is loaded on the belt conveyor 20 in a state in which steam 60 is not generated and passed through the chute 40 to be collected in a coal storage tank (not shown).

As described above, according to the steam generating prevention device of the coal dryer of the present invention, in the process of drying the water of the coal, the coal is secondarily introduced into the cooling dryer to cool off and transport the high heat of coal to room temperature to generate steam. It has the effect of suppressing.

Accordingly, it prevents malfunction of various switches such as level switch or chute detection switch or equipment corrosion such as belt conveyor cover, and prevents worker's safety accident due to equipment inspection.

Claims (4)

The coal transported through the belt conveyor is introduced into the drying dryer of the coal dryer, and to prevent the steam generated in the process of drying and transporting the coal through the steam introduced into the heating tube installed inside the drying dryer. In the apparatus, A dryer unit installed at a lower portion of the drying dryer to cool the high temperature granite dried in the drying dryer to room temperature; Dryer driving means for rotating the shaft of the dryer unit; And a cooling tank for sending the high-temperature condensate generated by the drying dryer to the cooling dryer for the dryer unit. The method of claim 1, The dryer unit includes a cooling dryer equipped with a coal inlet at an upper end of the dryer case, a shaft penetrating the inside of the cooling dryer, a plurality of cooling tubes centered on the shaft, and the cooling tube. Steam generation prevention device of the coal dryer characterized in that it comprises a screw-shaped blade penetrating. The method according to claim 1 or 2, The upper and both sides of the cooling tank are provided with a high temperature condensate pipe connected to the drying dryer, and one side of the high temperature condensate pipe is connected to a control valve and the obtained condensate is cooled by a cooling fan installed above the cooling tank. , Steam generation prevention device of the coal dryer, characterized in that it is introduced into the shaft and the cooling tube through the cooling condensate pipe installed in the cooling tank. The method according to claim 1 or 2, Leveling device is installed in the cooling tank, the control valve is closed in accordance with the detection of the high level, the condensate is prevented steam generation device, characterized in that sent to the treatment tank.